sys/nfs/nfs_boot.c

1.6.2.3  mycroft /*    $NetBSD: nfs_boot.c,v 1.6.2.3 1994/08/11 23:48:28 mycroft Exp $ */
    1.5      cgd
    1.1    glass /*
    1.1    glass  * Copyright (c) 1994 Adam Glass, Gordon Ross
    1.1    glass  * All rights reserved.
    1.1    glass  *
    1.1    glass  * Redistribution and use in source and binary forms, with or without
    1.1    glass  * modification, are permitted provided that the following conditions
    1.1    glass  * are met:
    1.1    glass  * 1. Redistributions of source code must retain the above copyright
    1.1    glass  *    notice, this list of conditions and the following disclaimer.
    1.1    glass  * 2. Redistributions in binary form must reproduce the above copyright
    1.1    glass  *    notice, this list of conditions and the following disclaimer in the
    1.1    glass  *    documentation and/or other materials provided with the distribution.
    1.3      gwr  * 3. The name of the authors may not be used to endorse or promote products
    1.1    glass  *    derived from this software without specific prior written permission.
    1.1    glass  *
    1.3      gwr  * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR
    1.3      gwr  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
    1.3      gwr  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
    1.3      gwr  * IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY DIRECT, INDIRECT,
    1.3      gwr  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
    1.3      gwr  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
    1.3      gwr  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
    1.3      gwr  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
    1.3      gwr  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
    1.3      gwr  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    1.1    glass  */
    1.1    glass
    1.2      cgd #include <sys/param.h>
    1.1    glass #include <sys/systm.h>
    1.1    glass #include <sys/kernel.h>
    1.1    glass #include <sys/conf.h>
    1.1    glass #include <sys/ioctl.h>
    1.1    glass #include <sys/proc.h>
    1.1    glass #include <sys/mount.h>
    1.1    glass #include <sys/mbuf.h>
    1.1    glass #include <sys/socket.h>
    1.1    glass #include <sys/reboot.h>
    1.1    glass
    1.1    glass #include <net/if.h>
    1.3      gwr #include <net/route.h>
    1.3      gwr
    1.1    glass #include <netinet/in.h>
    1.3      gwr #include <netinet/if_ether.h>
    1.1    glass
    1.1    glass #include <nfs/rpcv2.h>
    1.1    glass #include <nfs/nfsv2.h>
    1.1    glass #include <nfs/nfs.h>
    1.1    glass #include <nfs/nfsdiskless.h>
    1.1    glass
1.6.2.1      cgd #include "ether.h"
1.6.2.1      cgd #if NETHER > 0
1.6.2.1      cgd
    1.1    glass /*
    1.1    glass  * Support for NFS diskless booting, specifically getting information
    1.1    glass  * about where to boot from, what pathnames, etc.
    1.1    glass  *
    1.3      gwr  * This implememtation uses RARP and the bootparam RPC.
    1.3      gwr  * We are forced to implement RPC anyway (to get file handles)
    1.3      gwr  * so we might as well take advantage of it for bootparam too.
    1.1    glass  *
    1.3      gwr  * The diskless boot sequence goes as follows:
    1.3      gwr  * (1) Get our interface address using RARP
    1.3      gwr  *     (also save the address of the RARP server)
    1.3      gwr  * (2) Get our hostname using RPC/bootparam/whoami
    1.3      gwr  *     (all boopararms RPCs to the RARP server)
    1.3      gwr  * (3) Get the root path using RPC/bootparam/getfile
    1.3      gwr  * (4) Get the root file handle using RPC/mountd
    1.3      gwr  * (5) Get the swap path using RPC/bootparam/getfile
    1.3      gwr  * (6) Get the swap file handle using RPC/mountd
    1.1    glass  *
    1.3      gwr  * (This happens to be the way Sun does it too.)
    1.1    glass  */
    1.1    glass
    1.3      gwr /* bootparam RPC */
    1.6  deraadt static int bp_whoami __P((struct sockaddr_in *bpsin,
    1.6  deraadt 	struct in_addr *my_ip, struct in_addr *gw_ip));
    1.6  deraadt static int bp_getfile __P((struct sockaddr_in *bpsin, char *key,
    1.6  deraadt 	struct sockaddr_in *mdsin, char *servname, char *path));
    1.3      gwr
    1.3      gwr /* mountd RPC */
    1.6  deraadt static int md_mount __P((struct sockaddr_in *mdsin, char *path,
    1.6  deraadt 	u_char *fh));
    1.3      gwr
    1.3      gwr /* other helpers */
    1.6  deraadt static void get_path_and_handle __P((struct sockaddr_in *bpsin,
    1.6  deraadt 	char *key, struct nfs_dlmount *ndmntp));
    1.1    glass
    1.1    glass /*
    1.3      gwr  * Called with an empty nfs_diskless struct to be filled in.
    1.1    glass  */
    1.6  deraadt int
    1.6  deraadt nfs_boot_init(nd, procp)
    1.3      gwr 	struct nfs_diskless *nd;
    1.3      gwr 	struct proc *procp;
    1.1    glass {
    1.3      gwr 	struct ifreq ireq;
    1.3      gwr 	struct in_addr my_ip, srv_ip, gw_ip;
    1.3      gwr 	struct sockaddr_in bp_sin;
    1.1    glass 	struct sockaddr_in *sin;
    1.3      gwr 	struct ifnet *ifp;
    1.3      gwr 	struct socket *so;
    1.3      gwr 	int error, len;
    1.3      gwr 	u_short port;
    1.3      gwr
    1.3      gwr #if 0
    1.3      gwr 	/*
    1.3      gwr 	 * XXX time must be non-zero when we init the interface or else
    1.3      gwr 	 * the arp code will wedge... (Fixed in if_ether.c -gwr)
    1.3      gwr 	 */
    1.3      gwr 	if (time.tv_sec == 0)
    1.3      gwr 		time.tv_sec = 1;
    1.3      gwr #endif
    1.3      gwr
    1.3      gwr 	/*
    1.3      gwr 	 * Find an interface, rarp for its ip address, stuff it, the
    1.3      gwr 	 * implied broadcast addr, and netmask into a nfs_diskless struct.
    1.3      gwr 	 *
    1.3      gwr 	 * This was moved here from nfs_vfsops.c because this procedure
    1.3      gwr 	 * would be quite different if someone decides to write (i.e.) a
    1.3      gwr 	 * BOOTP version of this file (might not use RARP, etc.) -gwr
    1.3      gwr 	 */
    1.3      gwr
    1.3      gwr 	/*
    1.3      gwr 	 * Find a network interface.
    1.3      gwr 	 * XXX - This should use the specified boot device.
    1.3      gwr 	 */
    1.3      gwr 	for (ifp = ifnet; ifp; ifp = ifp->if_next)
    1.3      gwr 		if ((ifp->if_flags & (IFF_LOOPBACK|IFF_POINTOPOINT)) == 0)
    1.3      gwr 			break;
    1.3      gwr 	if (ifp == NULL)
    1.3      gwr 		panic("nfs_boot: no suitable interface");
    1.3      gwr 	sprintf(ireq.ifr_name, "%s%d", ifp->if_name, ifp->if_unit);
    1.3      gwr 	printf("nfs_boot: using network interface '%s'\n",
    1.6  deraadt 	    ireq.ifr_name);
    1.3      gwr
    1.3      gwr 	/*
    1.3      gwr 	 * Bring up the interface.
    1.3      gwr 	 */
    1.3      gwr 	if ((error = socreate(AF_INET, &so, SOCK_DGRAM, 0)) != 0)
    1.3      gwr 		panic("nfs_boot: socreate, error=%d", error);
    1.3      gwr 	ireq.ifr_flags = IFF_UP;
    1.3      gwr 	error = ifioctl(so, SIOCSIFFLAGS, (caddr_t)&ireq, procp);
    1.6  deraadt 	if (error)
    1.6  deraadt 		panic("nfs_boot: SIFFLAGS, error=%d", error);
    1.3      gwr
    1.3      gwr 	/*
    1.3      gwr 	 * Do RARP for the interface address.  Also
    1.3      gwr 	 * save the server address for bootparam RPC.
    1.3      gwr 	 */
    1.3      gwr 	if ((error = revarpwhoarewe(ifp, &srv_ip, &my_ip)) != 0)
    1.3      gwr 		panic("revarp failed, error=%d", error);
    1.3      gwr 	printf("nfs_boot: client=0x%x, server=0x%x\n",
1.6.2.2      cgd 	    ntohl(my_ip.s_addr), ntohl(srv_ip.s_addr));
    1.3      gwr
    1.3      gwr 	/*
    1.3      gwr 	 * Do enough of ifconfig(8) so that the chosen interface can
    1.3      gwr 	 * talk to the server(s).  (also get brcast addr and netmask)
    1.3      gwr 	 */
    1.3      gwr 	/* Set interface address. */
    1.3      gwr 	sin = (struct sockaddr_in *)&ireq.ifr_addr;
1.6.2.3  mycroft 	bzero((caddr_t)sin, sizeof(*sin));
    1.3      gwr 	sin->sin_len = sizeof(*sin);
    1.3      gwr 	sin->sin_family = AF_INET;
    1.3      gwr 	sin->sin_addr.s_addr = my_ip.s_addr;
    1.3      gwr 	error = ifioctl(so, SIOCSIFADDR, (caddr_t)&ireq, procp);
    1.6  deraadt 	if (error)
    1.6  deraadt 		panic("nfs_boot: set if addr, error=%d", error);
    1.3      gwr
    1.3      gwr 	soclose(so);
    1.3      gwr
    1.3      gwr 	/*
    1.3      gwr 	 * Get client name and gateway address.
    1.3      gwr 	 * RPC: bootparam/whoami
    1.3      gwr 	 */
1.6.2.3  mycroft 	bzero((caddr_t)&bp_sin, sizeof(bp_sin));
    1.3      gwr 	bp_sin.sin_len = sizeof(bp_sin);
    1.3      gwr 	bp_sin.sin_family = AF_INET;
    1.3      gwr 	bp_sin.sin_addr.s_addr = srv_ip.s_addr;
    1.3      gwr 	hostnamelen = MAXHOSTNAMELEN;
    1.6  deraadt
    1.6  deraadt 	/* this returns gateway IP address */
    1.6  deraadt 	error = bp_whoami(&bp_sin, &my_ip, &gw_ip);
    1.3      gwr 	if (error)
    1.3      gwr 		panic("nfs_boot: bootparam whoami, error=%d", error);
    1.3      gwr 	printf("nfs_boot: hostname=%s\n", hostname);
    1.1    glass
    1.3      gwr #ifdef	NFS_BOOT_GATEWAY
    1.1    glass 	/*
1.6.2.2      cgd 	 * XXX - This code is conditionally compiled only because
1.6.2.2      cgd 	 * many bootparam servers (in particular, SunOS 4.1.3)
1.6.2.2      cgd 	 * always set the gateway address to their own address.
1.6.2.2      cgd 	 * The bootparam server is not necessarily the gateway.
1.6.2.2      cgd 	 * We could just believe the server, and at worst you would
1.6.2.2      cgd 	 * need to delete the incorrect default route before adding
1.6.2.2      cgd 	 * the correct one, but for simplicity, ignore the gateway.
    1.3      gwr 	 * If your server is OK, you can turn on this option.
    1.3      gwr 	 *
    1.3      gwr 	 * If the gateway address is set, add a default route.
    1.3      gwr 	 * (The mountd RPCs may go across a gateway.)
    1.1    glass 	 */
    1.3      gwr 	if (gw_ip.s_addr) {
1.6.2.2      cgd 		struct sockaddr dst, gw, mask;
    1.3      gwr 		/* Destination: (default) */
1.6.2.3  mycroft 		bzero((caddr_t)&dst, sizeof(dst));
1.6.2.2      cgd 		dst.sa_len = sizeof(dst);
1.6.2.2      cgd 		dst.sa_family = AF_INET;
    1.3      gwr 		/* Gateway: */
1.6.2.3  mycroft 		bzero((caddr_t)&gw, sizeof(gw));
1.6.2.2      cgd 		sin = (struct sockaddr_in *)&gw;
1.6.2.2      cgd 		sin->sin_len = sizeof(gw);
1.6.2.2      cgd 		sin->sin_family = AF_INET;
1.6.2.2      cgd 		sin->sin_addr.s_addr = gw_ip.s_addr;
1.6.2.2      cgd 		/* Mask: (zero length) */
1.6.2.2      cgd 		bzero(&mask, sizeof(mask));
    1.6  deraadt
1.6.2.2      cgd 		printf("nfs_boot: gateway=0x%x\n", ntohl(gw_ip.s_addr));
    1.3      gwr 		/* add, dest, gw, mask, flags, 0 */
1.6.2.2      cgd 		error = rtrequest(RTM_ADD, &dst, (struct sockaddr *)&gw,
1.6.2.2      cgd 		    &mask, (RTF_UP | RTF_GATEWAY | RTF_STATIC), NULL);
    1.3      gwr 		if (error)
    1.3      gwr 			printf("nfs_boot: add route, error=%d\n", error);
    1.3      gwr 	}
    1.3      gwr #endif
    1.3      gwr
    1.3      gwr 	get_path_and_handle(&bp_sin, "root", &nd->nd_root);
    1.3      gwr 	get_path_and_handle(&bp_sin, "swap", &nd->nd_swap);
    1.1    glass
    1.3      gwr 	return (0);
    1.3      gwr }
    1.1    glass
    1.3      gwr static void
    1.3      gwr get_path_and_handle(bpsin, key, ndmntp)
    1.3      gwr 	struct sockaddr_in *bpsin;	/* bootparam server */
    1.6  deraadt 	char *key;			/* root or swap */
    1.6  deraadt 	struct nfs_dlmount *ndmntp;	/* output */
    1.3      gwr {
    1.3      gwr 	char pathname[MAXPATHLEN];
    1.4       pk 	char *sp, *dp, *endp;
    1.3      gwr 	int error;
    1.1    glass
    1.3      gwr 	/*
    1.3      gwr 	 * Get server:pathname for "key" (root or swap)
    1.3      gwr 	 * using RPC to bootparam/getfile
    1.3      gwr 	 */
    1.6  deraadt 	error = bp_getfile(bpsin, key, &ndmntp->ndm_saddr,
    1.6  deraadt 	    ndmntp->ndm_host, pathname);
    1.3      gwr 	if (error)
    1.3      gwr 		panic("nfs_boot: bootparam get %s: %d", key, error);
    1.3      gwr 	printf("%s on %s:%s\n", key, ndmntp->ndm_host, pathname);
    1.1    glass
    1.3      gwr 	/*
    1.3      gwr 	 * Get file handle for "key" (root or swap)
    1.3      gwr 	 * using RPC to mountd/mount
    1.3      gwr 	 */
    1.6  deraadt 	error = md_mount(&ndmntp->ndm_saddr, pathname, ndmntp->ndm_fh);
    1.3      gwr 	if (error)
    1.3      gwr 		panic("nfs_boot: mountd %s, error=%d", key, error);
    1.4       pk
    1.4       pk 	/* Construct remote path (for getmntinfo(3)) */
    1.4       pk 	dp = ndmntp->ndm_host;
    1.4       pk 	endp = dp + MNAMELEN - 1;
    1.4       pk 	dp += strlen(dp);
    1.4       pk 	*dp++ = ':';
    1.4       pk 	for (sp = pathname; *sp && dp < endp;)
    1.4       pk 		*dp++ = *sp++;
    1.4       pk 	*dp = '\0';
    1.6  deraadt
    1.1    glass }
    1.1    glass
    1.3      gwr
    1.1    glass /*
    1.3      gwr  * Get an mbuf with the given length, and
    1.3      gwr  * initialize the pkthdr length field.
    1.1    glass  */
    1.3      gwr static struct mbuf *
    1.3      gwr m_get_len(int msg_len)
    1.1    glass {
    1.1    glass 	struct mbuf *m;
    1.3      gwr 	m = m_gethdr(M_WAIT, MT_DATA);
    1.3      gwr 	if (m == NULL)
    1.3      gwr 		return NULL;
    1.3      gwr 	if (msg_len > MHLEN) {
    1.3      gwr 		if (msg_len > MCLBYTES)
    1.3      gwr 			panic("nfs_boot: msg_len > MCLBYTES");
    1.3      gwr 		MCLGET(m, M_WAIT);
    1.1    glass 		if (m == NULL)
    1.3      gwr 			return NULL;
    1.1    glass 	}
    1.3      gwr 	m->m_len = msg_len;
    1.3      gwr 	m->m_pkthdr.len = m->m_len;
    1.3      gwr 	return (m);
    1.1    glass }
    1.1    glass
    1.3      gwr
    1.3      gwr /*
    1.3      gwr  * String representation for RPC.
    1.3      gwr  */
    1.3      gwr struct rpc_string {
    1.3      gwr 	u_long len;		/* length without null or padding */
    1.3      gwr 	u_char data[4];	/* data (longer, of course) */
    1.3      gwr     /* data is padded to a long-word boundary */
    1.3      gwr };
    1.3      gwr /* Compute space used given string length. */
    1.3      gwr #define	RPC_STR_SIZE(slen) (4 + ((slen + 3) & ~3))
    1.3      gwr
    1.3      gwr /*
    1.3      gwr  * Inet address in RPC messages
    1.3      gwr  * (Note, really four longs, NOT chars.  Blech.)
    1.3      gwr  */
    1.3      gwr struct bp_inaddr {
    1.3      gwr 	u_long  atype;
    1.3      gwr 	long	addr[4];
    1.3      gwr };
    1.3      gwr
    1.3      gwr
    1.1    glass /*
    1.3      gwr  * RPC definitions for bootparamd
    1.3      gwr  * (XXX - move to a header file?)
    1.1    glass  */
    1.3      gwr #define	BOOTPARAM_PROG		100026
    1.3      gwr #define	BOOTPARAM_VERS		1
    1.3      gwr #define BOOTPARAM_WHOAMI	1
    1.3      gwr #define BOOTPARAM_GETFILE	2
    1.3      gwr
    1.3      gwr
    1.3      gwr /*
    1.3      gwr  * RPC: bootparam/whoami
    1.3      gwr  * Given client IP address, get:
    1.3      gwr  *	client name	(hostname)
    1.3      gwr  *	domain name (domainname)
    1.3      gwr  *	gateway address
    1.3      gwr  *
    1.3      gwr  * Setting the hostname and domainname here may be somewhat
    1.3      gwr  * controvercial, but it is so easy to do it here. -gwr
    1.3      gwr  */
    1.3      gwr static int
    1.6  deraadt bp_whoami(bpsin, my_ip, gw_ip)
    1.6  deraadt 	struct sockaddr_in *bpsin;
    1.6  deraadt 	struct in_addr *my_ip;
    1.6  deraadt 	struct in_addr *gw_ip;
    1.1    glass {
    1.3      gwr 	/* The RPC structures */
    1.3      gwr 	struct bp_inaddr *bia;
    1.3      gwr 	struct rpc_string *str;
    1.1    glass 	struct mbuf *m;
    1.3      gwr 	struct sockaddr_in *sin;
    1.3      gwr 	int error, msg_len;
    1.3      gwr 	int cn_len, dn_len;
    1.3      gwr 	u_char *p;
    1.1    glass
    1.3      gwr 	/*
    1.3      gwr 	 * Get message buffer of sufficient size.
    1.3      gwr 	 */
    1.3      gwr 	msg_len = sizeof(*bia);
    1.3      gwr 	m = m_get_len(msg_len);
    1.3      gwr 	if (m == NULL)
    1.3      gwr 		return ENOBUFS;
    1.1    glass
    1.3      gwr 	/*
    1.3      gwr 	 * Build request message.
    1.3      gwr 	 */
    1.3      gwr 	/* client IP address */
    1.3      gwr 	bia = mtod(m, struct bp_inaddr *);
    1.3      gwr 	bia->atype = htonl(1);
    1.3      gwr 	p = (u_char*)my_ip;	/* ugh! */
    1.6  deraadt 	bia->addr[0] = htonl(*p);
    1.6  deraadt 	p++;
    1.6  deraadt 	bia->addr[1] = htonl(*p);
    1.6  deraadt 	p++;
    1.6  deraadt 	bia->addr[2] = htonl(*p);
    1.6  deraadt 	p++;
    1.6  deraadt 	bia->addr[3] = htonl(*p);
    1.6  deraadt 	p++;
    1.3      gwr
    1.3      gwr 	/* RPC: bootparam/whoami */
    1.3      gwr 	error = krpc_call((struct sockaddr *)bpsin,
    1.6  deraadt 	    BOOTPARAM_PROG, BOOTPARAM_VERS, BOOTPARAM_WHOAMI, &m);
    1.1    glass 	if (error)
    1.1    glass 		return error;
    1.3      gwr
    1.3      gwr 	/*
    1.3      gwr 	 * Parse result message.
    1.3      gwr 	 */
    1.3      gwr 	msg_len = m->m_len;
    1.3      gwr 	p = mtod(m, char *);
    1.3      gwr
    1.3      gwr 	/* client name */
    1.3      gwr 	if (msg_len < sizeof(*str))
    1.3      gwr 		goto bad;
    1.3      gwr 	str = (struct rpc_string *)p;
    1.3      gwr 	cn_len = ntohl(str->len);
    1.3      gwr 	if (msg_len < cn_len)
    1.3      gwr 		goto bad;
    1.3      gwr 	if (cn_len >= MAXHOSTNAMELEN)
    1.3      gwr 		goto bad;
    1.3      gwr 	bcopy(str->data, hostname, cn_len);
    1.3      gwr 	hostname[cn_len] = '\0';
    1.3      gwr 	hostnamelen = cn_len;
    1.3      gwr 	p += RPC_STR_SIZE(cn_len);
    1.3      gwr 	msg_len -= RPC_STR_SIZE(cn_len);
    1.3      gwr
    1.3      gwr 	/* domain name */
    1.3      gwr 	if (msg_len < sizeof(*str))
    1.3      gwr 		goto bad;
    1.3      gwr 	str = (struct rpc_string *)p;
    1.3      gwr 	dn_len = ntohl(str->len);
    1.3      gwr 	if (msg_len < dn_len)
    1.3      gwr 		goto bad;
    1.3      gwr 	if (dn_len >= MAXHOSTNAMELEN)
    1.3      gwr 		goto bad;
    1.3      gwr 	bcopy(str->data, domainname, dn_len);
    1.3      gwr 	domainname[dn_len] = '\0';
    1.3      gwr 	domainnamelen = dn_len;
    1.3      gwr 	p += RPC_STR_SIZE(dn_len);
    1.3      gwr 	msg_len -= RPC_STR_SIZE(dn_len);
    1.3      gwr
    1.3      gwr 	/* gateway address */
    1.3      gwr 	if (msg_len < sizeof(*bia))
    1.3      gwr 		goto bad;
    1.3      gwr 	bia = (struct bp_inaddr *)p;
    1.3      gwr 	if (bia->atype != htonl(1))
    1.3      gwr 		goto bad;
    1.3      gwr 	p = (u_char*)gw_ip;
    1.3      gwr 	*p++ = ntohl(bia->addr[0]);
    1.3      gwr 	*p++ = ntohl(bia->addr[1]);
    1.3      gwr 	*p++ = ntohl(bia->addr[2]);
    1.3      gwr 	*p++ = ntohl(bia->addr[3]);
    1.3      gwr 	goto out;
    1.3      gwr
    1.6  deraadt bad:
    1.3      gwr 	printf("nfs_boot: bootparam_whoami: bad reply\n");
    1.3      gwr 	error = EBADRPC;
    1.3      gwr
    1.6  deraadt out:
    1.3      gwr 	m_freem(m);
    1.3      gwr 	return(error);
    1.1    glass }
    1.1    glass
    1.3      gwr
    1.1    glass /*
    1.3      gwr  * RPC: bootparam/getfile
    1.3      gwr  * Given client name and file "key", get:
    1.3      gwr  *	server name
    1.3      gwr  *	server IP address
    1.3      gwr  *	server pathname
    1.1    glass  */
    1.3      gwr static int
    1.6  deraadt bp_getfile(bpsin, key, md_sin, serv_name, pathname)
    1.6  deraadt 	struct sockaddr_in *bpsin;
    1.6  deraadt 	char *key;
    1.6  deraadt 	struct sockaddr_in *md_sin;
    1.6  deraadt 	char *serv_name;
    1.6  deraadt 	char *pathname;
    1.1    glass {
    1.3      gwr 	struct rpc_string *str;
    1.3      gwr 	struct mbuf *m;
    1.3      gwr 	struct bp_inaddr *bia;
    1.1    glass 	struct sockaddr_in *sin;
    1.3      gwr 	u_char *p, *q;
    1.3      gwr 	int error, msg_len;
    1.3      gwr 	int cn_len, key_len, sn_len, path_len;
    1.1    glass
    1.3      gwr 	/*
    1.3      gwr 	 * Get message buffer of sufficient size.
    1.3      gwr 	 */
    1.3      gwr 	cn_len = hostnamelen;
    1.3      gwr 	key_len = strlen(key);
    1.3      gwr 	msg_len = 0;
    1.3      gwr 	msg_len += RPC_STR_SIZE(cn_len);
    1.3      gwr 	msg_len += RPC_STR_SIZE(key_len);
    1.3      gwr 	m = m_get_len(msg_len);
    1.3      gwr 	if (m == NULL)
    1.3      gwr 		return ENOBUFS;
    1.1    glass
    1.1    glass 	/*
    1.3      gwr 	 * Build request message.
    1.1    glass 	 */
    1.3      gwr 	p = mtod(m, u_char *);
    1.3      gwr 	bzero(p, msg_len);
    1.3      gwr 	/* client name (hostname) */
    1.3      gwr 	str = (struct rpc_string *)p;
    1.3      gwr 	str->len = htonl(cn_len);
    1.3      gwr 	bcopy(hostname, str->data, cn_len);
    1.3      gwr 	p += RPC_STR_SIZE(cn_len);
    1.3      gwr 	/* key name (root or swap) */
    1.3      gwr 	str = (struct rpc_string *)p;
    1.3      gwr 	str->len = htonl(key_len);
    1.3      gwr 	bcopy(key, str->data, key_len);
    1.3      gwr
    1.3      gwr 	/* RPC: bootparam/getfile */
    1.3      gwr 	error = krpc_call((struct sockaddr *)bpsin,
    1.6  deraadt 	    BOOTPARAM_PROG, BOOTPARAM_VERS, BOOTPARAM_GETFILE, &m);
    1.3      gwr 	if (error)
    1.1    glass 		return error;
    1.3      gwr
    1.3      gwr 	/*
    1.3      gwr 	 * Parse result message.
    1.3      gwr 	 */
    1.3      gwr 	p = mtod(m, u_char *);
    1.3      gwr 	msg_len = m->m_len;
    1.3      gwr
    1.3      gwr 	/* server name */
    1.3      gwr 	if (msg_len < sizeof(*str))
    1.3      gwr 		goto bad;
    1.3      gwr 	str = (struct rpc_string *)p;
    1.3      gwr 	sn_len = ntohl(str->len);
    1.3      gwr 	if (msg_len < sn_len)
    1.3      gwr 		goto bad;
    1.3      gwr 	if (sn_len >= MNAMELEN)
    1.3      gwr 		goto bad;
    1.3      gwr 	bcopy(str->data, serv_name, sn_len);
    1.3      gwr 	serv_name[sn_len] = '\0';
    1.3      gwr 	p += RPC_STR_SIZE(sn_len);
    1.3      gwr 	msg_len -= RPC_STR_SIZE(sn_len);
    1.3      gwr
    1.3      gwr 	/* server IP address (mountd) */
    1.3      gwr 	if (msg_len < sizeof(*bia))
    1.3      gwr 		goto bad;
    1.3      gwr 	bia = (struct bp_inaddr *)p;
    1.3      gwr 	if (bia->atype != htonl(1))
    1.3      gwr 		goto bad;
    1.3      gwr 	sin = md_sin;
1.6.2.3  mycroft 	bzero((caddr_t)sin, sizeof(*sin));
    1.3      gwr 	sin->sin_len = sizeof(*sin);
    1.1    glass 	sin->sin_family = AF_INET;
    1.3      gwr 	q = (u_char*) &sin->sin_addr;
    1.3      gwr 	*q++ = ntohl(bia->addr[0]);
    1.3      gwr 	*q++ = ntohl(bia->addr[1]);
    1.3      gwr 	*q++ = ntohl(bia->addr[2]);
    1.3      gwr 	*q++ = ntohl(bia->addr[3]);
    1.3      gwr 	p += sizeof(*bia);
    1.3      gwr 	msg_len -= sizeof(*bia);
    1.3      gwr
    1.3      gwr 	/* server pathname */
    1.3      gwr 	if (msg_len < sizeof(*str))
    1.3      gwr 		goto bad;
    1.3      gwr 	str = (struct rpc_string *)p;
    1.3      gwr 	path_len = ntohl(str->len);
    1.3      gwr 	if (msg_len < path_len)
    1.3      gwr 		goto bad;
    1.3      gwr 	if (path_len >= MAXPATHLEN)
    1.3      gwr 		goto bad;
    1.3      gwr 	bcopy(str->data, pathname, path_len);
    1.3      gwr 	pathname[path_len] = '\0';
    1.3      gwr 	goto out;
    1.3      gwr
    1.6  deraadt bad:
    1.3      gwr 	printf("nfs_boot: bootparam_getfile: bad reply\n");
    1.3      gwr 	error = EBADRPC;
    1.1    glass
    1.6  deraadt out:
    1.3      gwr 	m_freem(m);
    1.3      gwr 	return(0);
    1.3      gwr }
    1.1    glass
    1.1    glass
    1.1    glass /*
    1.3      gwr  * RPC: mountd/mount
    1.3      gwr  * Given a server pathname, get an NFS file handle.
    1.3      gwr  * Also, sets sin->sin_port to the NFS service port.
    1.1    glass  */
    1.3      gwr static int
    1.3      gwr md_mount(mdsin, path, fhp)
    1.3      gwr 	struct sockaddr_in *mdsin;		/* mountd server address */
    1.3      gwr 	char *path;
    1.3      gwr 	u_char *fhp;
    1.1    glass {
    1.3      gwr 	/* The RPC structures */
    1.3      gwr 	struct rpc_string *str;
    1.3      gwr 	struct rdata {
    1.3      gwr 		u_long	errno;
    1.3      gwr 		u_char	fh[NFS_FHSIZE];
    1.3      gwr 	} *rdata;
    1.3      gwr 	struct mbuf *m;
    1.3      gwr 	int error, mlen, slen;
    1.3      gwr
    1.3      gwr 	slen = strlen(path);
    1.3      gwr 	mlen = RPC_STR_SIZE(slen);
    1.3      gwr
    1.3      gwr 	m = m_get_len(mlen);
    1.3      gwr 	if (m == NULL)
    1.3      gwr 		return ENOBUFS;
    1.3      gwr 	str = mtod(m, struct rpc_string *);
    1.3      gwr 	str->len = htonl(slen);
    1.3      gwr 	bcopy(path, str->data, slen);
    1.3      gwr
    1.3      gwr 	/* Do RPC to mountd. */
    1.3      gwr 	error = krpc_call((struct sockaddr *)mdsin,
    1.6  deraadt 	    RPCPROG_MNT, RPCMNT_VER1, RPCMNT_MOUNT, &m);
    1.6  deraadt 	if (error)
    1.3      gwr 		return error;	/* message already freed */
    1.1    glass
    1.3      gwr 	mlen = m->m_len;
    1.3      gwr 	if (mlen < sizeof(*rdata))
    1.3      gwr 		goto bad;
    1.3      gwr 	rdata = mtod(m, struct rdata *);
    1.3      gwr 	error = ntohl(rdata->errno);
    1.1    glass 	if (error)
    1.3      gwr 		goto bad;
    1.3      gwr 	bcopy(rdata->fh, fhp, NFS_FHSIZE);
    1.1    glass
    1.3      gwr 	/* Set port number for NFS use. */
    1.3      gwr 	error = krpc_portmap((struct sockaddr *)mdsin,
    1.6  deraadt 	    NFS_PROG, NFS_VER2, &mdsin->sin_port);
    1.3      gwr 	goto out;
    1.1    glass
    1.6  deraadt bad:
    1.3      gwr 	error = EBADRPC;
    1.1    glass
    1.6  deraadt out:
    1.3      gwr 	m_freem(m);
    1.3      gwr 	return error;
    1.1    glass }
1.6.2.1      cgd
1.6.2.1      cgd #else /* NETHER */
1.6.2.1      cgd
1.6.2.1      cgd int nfs_boot_init(nd, procp)
1.6.2.1      cgd 	struct nfs_diskless *nd;
1.6.2.1      cgd 	struct proc *procp;
1.6.2.1      cgd {
1.6.2.1      cgd 	panic("nfs_boot_init: no ether");
1.6.2.1      cgd }
1.6.2.1      cgd
1.6.2.1      cgd #endif /* NETHER */